Also found in: Medical.
PAR1Protease Activated Receptor 1 (aka Proteinase Activated Receptor 1)
PAR1Pulmonary Adenoma Resistance 1 (genetic determinant)
References in periodicals archive ?
The N-terminal binding sequence (NBS) located within Domain III forms a four-helix bundle with the C-terminal binding sequence (CBS) located within the disordered C-terminal tail, creating a C-terminal lariat loop that strengthens interaction of CagA with PAR1 and SHP2 (Fig.
We are now planning to extend our study to investigate if the above mechanisms, or genetic defects of the PAR1 receptor, are responsible for the development of anxiety disorders and depression in human patients.
We hypothesized that PAR1 might be changing its role," in sepsis, Kuliopulos says.
Ademas, la triptasa, el TNF[alfa] y el NGF del mastocito producen disminucion del umbral de activacion nerviosa y estimulacion neuronal a traves de los receptores PAR1 y 2 de las neuronas.
Focusing on the Paraguana Bay (Brazil) where two species were found, PAR1 exhibited the C.
This report is based to some extent upon the PAR1 2004 report concerning phased arrays as such--which included passive phased arrays that are occasionally fed by tubes such as TWTs.
Extensive in vitro studies have revealed that activation of PAR1 on numerous cell types, including among others fibroblasts, epithelial cells, monocytes/macrophages and vascular endothelial cells, leads to the induction and release of potent pro-inflammatory mediators and chemokines [18].
albiceps en el PAR1 ocurre desplazamiento hacia arriba en el sentido diagonal a la derecha, el PAR3 se mueve en sentido diagonal hacia el PAR2, mientras que el PAR6 se acerca en sentido diagonal hacia el PAR7, y a su vez se desplaza verticalmente.
An unusual enzyme, thrombin performs distinct and even opposing functions, acting as a pro-coagulant, pro-thrombotic but also as an anti-coagulant factor depending on which target protein - fibrinogen, PAR1 or protein C - becomes activated in the blood.
The PAR1 (YAP1/SNQ3) gene of Saccharomyces cerevisiae, a c-jun homologue, is involved in oxygen metabolism.